Oscillograph apparatus



1940- R. H. GEORGE 2,185,373

OSCILLOGRAPH APPARATUS Original Filed Sept. 14, 1929 3 Sheets-Sheet 1 INVENTOR ROSCOE H- GEORGE ATTO R N EY Jan. 2, 1940. R. H. GEORGE OSCILLOGRAPH APPARATUS Original Filed Sept. 14, 1929 3 Sheets-Sheet 2 INVENTOR ROSCOE H. GEORGE ATTORNEY Jan. 2, 1940- R. H. GEORGE OSCILLOGRAPH APPARATUS Original Filed Sept. 14, 1929 5 Sheds-Sheet 3 INVENTOR ROSCOE fl. GE RGE "7K5 ATTORNEY Patented Jan. 2, 1940 PATENT OFFICE OSCILLOGRAPH APPARATUS Boscoe'Henr-y George, West Lafayette, ImL, as signor to Radio Corporation of America, a corporation of Delaware Original application September 14, 1929, Serial Divided and this application July 7, 1937, Serial No. 152,287

1 Claim.

This invention, which forms a divisional part of my Patent No. 2,086,546, issued July 13, 1 937,

relates to oscillographs and methods of operating the same and has particular relation to cathode ray oscillographs and systems of electrical connections therefor, whereby transient electrical phenomena. and the like may be accurately and efficiently recorded or observed.

A very urgent demand for further knowledge of lightning 'and other transient phenomena, and other high-frequency electrical phenomena in general, has resulted in the development of high-voltage cold-cathode type, the low-voltage hot-cathode type and the medium-voltage hotcathode type.

The oscillograph constituting the invention has been designed and developed'with a particular view to gaining the necessary photographic sensitivity through the use of a high-intensity cathode ray or beam at a minimum beam voltage.

One of the principal problems, then, has been to devise satisfactory means for producing and focusing a high-intensity beam over a sufficient range of beam voltages to insure the necessary photographic sensitivity. The solution of this problem constitutes one of the major advantages of the invention. 7

It is accordingly an object of the present invention to provide and produce an instrument of the above indicated character that will be reliable for the purpose intended and by which a recording strip may be suitably positioned and fed to record the desired phenomena.

Furtherobjects of the invention are to provide oscillograph apparatus and a system for controlling the same which will provide for recording transients or other types of signals of extremely short duration.

Stillother objects and advantages of the invention are those which were set forth in the parent application of which this is a divisional and to which reference may be made for a complete understanding of the entire apparatus not specifically disclosed in this divisional applica- Figure 3 is an enlarged fragmentary vertical sectional view taken on the line 3-3 of Figure 2 and Figure 4 is a fragmentary vertical sectional view taken on the line 4--4 of Figure 3.

The general elements of construction of the preferred embodiment of the invention are best shown in Figs. 1 and 2 of the drawings, in which it may be seen that a base plate 2| supports a horizontally extending cylindrical chamber 22. From the upper portion of the chamber 22 a tapered casing portion 23 extends upwardly to support a vertically extending casing portion 24, the exterior of which is shown as being octagonal in cross section. To the upper extremity of the casing portion 24, a cylindrical casing portion 25 of insulating material is secured by means of a sleeve nut 26, and to the upper extremity of this casing portion 25 another cylindrical casing portion 21 is, in turn, secured by means of a sleeve nut 28. The upper extremity of this casing portion 21 is closed by an insulating cap member 29 that is secured in position by a sleeve nut 30.

The casing portions 24 and.2'| are of metal and are adapted to have relatively high potential conductors connected thereto, and for this reason it is desirable to surround the same by protective members,such as insulating side plates 3| and vertical rods 32, .which latter are partly of metal and partly of insulating material, as will appear hereinafter. These side plates and rods are supported by a metallic bottom plate 33,

a metallic intermediate plate 34 and a top plate- 35 of insulating material, which plates are supported upon the main casing of the instrument permit the insertion of a container of drying material, such as a suitable hygroscopic chemical or the like, and the opposite end of this chamber is provided with a valve 4| for controlling the connection of the instrument casing to the vacuum pump through the connection 36. The latter connection preferably includes a second valve 42 for connecting the interior of the instrument casing to the atmosphere in order to break the vacuum within said casing when desired.

One end of the cylindrical portion 22 of the casing is provided with a hinged door 43 adapted to be tightly sealed by asuitable gasket or otherwise and to be opened by means of a handle 44. Since this door is held very tightly closed by the external atmospheric pressurewhen the interior of the casing is evacuated, it is also desirable to provide a releasing screw 43, which extends through a screw threaded hole in a projecting portion of the end wall of the casing portion 22 and abuts against the inner surface of the door 43 near the periphery thereof. A pin 43 extends through a hole in the head of the screw 43, in.

order that this screw may be turned manually to effect a slight opening of the door 43 when the vacuum within the casing has been broken. When the door 43 is thus moved a slight distance it may be readily opened by means of the handle 44.

A tubular member 41 is secured to one side of the tapered casing portion 23 and extends angularly therefrom in such direction that a viewing screen within the cylindrical casing portion 22 may be observed through a suitable window in the outer extremity of said tubular member. The structural details of such viewing screen and observing window will appear hereinafter. It may be noted here, however, that a cover 41a prevents light from entering the casing through said window when the latter is not in use.

Referring now to Figs. 3 and 4, it will be seen that the lower extremity of the tapered casing portion 23 registers with an aperture in the top of the horizontally extending cylindrical casing portion 22 and is permanently and tightly secured to said casing portion 22 by soldering or brazing, as indicated at H2.

The ends of the casing portion 22 are respectively supported by vertical end plates H3 and I I4 which are suitably secured to the ends of said casing portion by soldering or brazing to form perfectly air-tight joints. The end plate II 3 closes the left hand end of the casing 22, as viewed in Fig. 3 and is apertured to receive the inner extremity of the pipe or conduit 33, the other extremity of which connects with the interior of the drying chamber 31. The pipe or conduit 39 similarly connects the drying chamber 31 with the casing portion 23, it being understood that both of the pipes or conduits 38 and 39 are brazed or soldered to the members to which they are connected at their respective extremities to form air-tight connections. The provision of the two pipes or conduits 33 and 39 insures complete and rapid evacuation of all parts of the casing without causing the air or other gases therefrom to encounter any unnecessary obstructions.

A tray or open container H5 is disposed within the drying chamber 31 and is adapted to hold a quantity of phosphorous pentoxide or other hygroscopic material II6 to prevent the passage of any moisture from the interior of the instrument (particularly from photographic films) into the pumping apparatus, where deleterious results would be caused thereby. The interior of the drying chamber 31 is connected through the valve 4|, as best shown in Fig. 4 with the connection 36 which extends to the vacuum pump (not shown), as previously stated. This valve is sealed to prevent any leakage of air into the instrument at this point, by means of grease supplied by a grease cup 31a to an interior annular groove 31b near the outer extremity of the member 31 surrounding the body portion of the valve 4|.

A sealing and insulating gland H1 is also connected to the end plate II3 for the purpose of permitting electrical conductors III to be extended from the exterior of the easing into the interior thereof in electrically insulated and airtight relation thereto. These conductors may be utilized for making connections to vacuum indicating lamps or devices and other circuits which it may be found desirable to utilize within the casing of the instrument, particularly in the portion 22 thereof. One of the conductors II3 is shown as being connected to a contact member I I9 bearing upon the periphery of a metallic disc I having an insert I2I of insulating material at a predetermined point therein. These parts may be utilized in connection with a film-winding mechanism, as will be more fully described hereinafter.

The end plate II4 of the chamber portion 22 is apertured to permit the insertion and removal of the above mentioned film-winding mechanism, and this aperture is adapted to be closed and tightly sealed by the hinged door 43, as previously described.

The film-winding and carrying mechanism is constructed as a removable unit adapted to be supported by a frame I22, by a piece of sheet metal forming a portion of a cylinder and apertured substantially in register with the bottom of the casing portion 22. The frame member I22 is located at the upper portion of the film-winding and supporting mechanism and is adapted to fit within the interior of the horizontally extending cylindrical casing portion 22 and to be supported upon rabbeted or grooved longitudinal rods I23 secured to the inner surface of this portion of the casing. With this manner of support it will be seen that the film mechanism may be slid into the casing portion 22 through the opening in the end wall II4 when the door 45 is open and that this mechanism will be accurately held in the desired position for the purpose of obtaining photographic records of the movements of the cathode ray, as will appear hereinafter.

Suspended from the supporting frame I22 are two end plates I 24 and I25 between which a plurality of supporting rods I26 extend. The respective extremities of the rods I26 are secured to the end plates I24 and I25 by screws I21, or other suitable means, and in this manner a rigid frame-work for the operative parts of the film mechanism is eventuated. Film-winding rolls or spools I28 and I29 are provided with suitable pintles journaled in the end plates I 24 and I25 and a photographic film I30 is adapted to be wound from one of these rolls or spools onto the other in the operation of the instrument. The film extends between the two rolls or spools I23 and I29 over two idler rolls I3I and I32, which are also journaled in the end plates I24 and I 25.

Between the idler rolls I3I and I32 a horizontally extending plate or table I33 is disposed for supporting an intermediate portion of the film in register with the aperture through the top of the casing portion 22 and with'the bottom of the casing portion 23. This plate or table I33 is rigidly secured at its opposite extremities to the end plates I24 and I25, and thus forms a solid support for the portion of the film I33 upon which the photographic records are made. Beneath the plate or table I33 a fixed tray I34 is which is constituted I) arsasvs disposed, this tray also being rigidly secured at its opposite extremities to the end plates I24 and I23- This tray is adapted to support a removable tray I35 carrying a quantity of phosphorous pentoxide or other hygroscopic material I36 for absorbing any moisture which remains in the film I30 when the same is placed in the casing portion 22.

A resilient member I31 is supported by two of the rods I26 near the bottom of the end plates I24 and I25 and extends inwardly and upwardly past the film-winding rolls or spools I28and I29. The upwardly extending portions of the member I31 are comb-like to form a plurality of resilient prongs or fingers I3'Ia which bear firmly against the film I30 as it is wound upon or unwound from the rolls or spools I28 and I29. The pressure exerted upon the film I30 by these resilient prongs I3'Ia maintains the desired degree of tautness in the portion of the film between the two rolls or spools I28 and I29.

A handle member I38 is suitably secured to the end plate I25 to facilitate insertion and removal of the film mechanism into and out of the chamber 22. The right-hand extremity of the filmwinding roll or spool I29 is pivotally supported on a pintle I39 which may be maintained in its operative position as illustrated by any suitable and well known means, such, for example, as an internal coil spring, and which may be retracted by means of a knurled knob I39a to permit removal and replacement of the spool I29. The right-hand extremity of the spool I28 is similarly supported by a corresponding retractible pintle (not shown). The left-hand extremity of the roll or spool I28 is adapted to be engaged by suitable turning prongs or fingers (not shown) connected to a knurled knob I40 (Fig. l) the spindle of which extends through the end wall H3 through an air-tight sealing gland I4I, to permit winding of the film from the roll or spool I29 onto the roll or spool I28 from the outside of the casing of the instrument while the inside of said casing is evacuated to place the instrument in condition for operation.

By means of this mechanism, it will be understood that successive portions of the film I30 may be brought into register with the aperture in the top of the casing portion or film chamber 22, through which the cathode ray or beam enters said chamber. This operation may be performed without breaking the vacuum within the casing of the instrument, and thus a considerable number of photographic records may be made in a short time without extended intermediate delays, which would be occasioned if it were necessary to open the casing each time the film was to be changed, and therefore to reestablish the vacuum after each film change.

The purpose of providing the contact disc I20 and cooperating contact finger II9 will now appear. The disc I20 is carried by and secured to the left-hand extremity or pintle of the idler roll I32, as shown in Fig. 3, whereby this disc rotates with said idler roll. This roll is moved in unison with the movement of the film I30 by reason of the frictional engagement between the film and roll, since the intermediate portion of the film between the two winding rolls I28 and I28 is always maintained in a taut condition, as previously described. Therefore, when the film is wound from the roll I29 onto the roll I28 by manipulation of the knurled knob I40, the contact disc I20 is rotated to a degree that is exactly proportional to the distance through which any given point of the film moves. The circumference of the roll I32 is such that one complete revolution thereof corresponds to a movement of the film I30 through a distance equal to the length of film utilized at each exposure thereof.

The initial exposure setting of the film is made with the contact finger H9 in contact with the insulating insert I2I in the disc I20. When the film is moved toward the position which it is to occupy during its next exposure, the contact finger II8 contacts with the conducting portions of the disc I20 to establish an electrical circuit between one of the insulated conductors H8 and the metallic frame of the instrument. This condition may be indicated by connecting the said one of the conductors H8 and the frame of the instrument in series with a lamp or other indicating device I20, which may be conveniently located for that piu'pose. When the desired movement of the film I30 has been effected, the contact finger H9 again engages the insulating insert I2I in the disc I20 and interrupts the indicating circuit, it being understood that the contact finger H9 is otherwise suitably insulated from the frame-work or casing of the instrument.

Upon extinguishment of the lamp or corresponding indication of any other indicating device that may be utilized, the operator is informed that the film has been moved through the desired distance and that a fresh portion thereof is ready for exposure. contact mechanism comprising the finger I I9 and the disc I20 having the insulating insert I2I therein may be utilized to effect automatic operation of the film by an electric motor or other suitable means in response to any desired condition indicating that a record has been made on the exposed portion of the film and that a fresh portion of the film should be brought into the field of exposure. The essential element of this feature of the invention, however, is in' associating the indicating mechanism comprising the disc I20 with an idler roll, such as the roll I32, that is rotated through a predetermined degree for any given movement of the film I30, while the degree of rotative movement of the winding It is also contemplated that the rolls I28 and I29 is variable depending upon the amount of film which has been wound from one of these rolls onto the other.

For the purpose of permitting visual inspection of the movements of the cathode ray or beam under the influence of the phenomena being observed, a phosphorescent or fluorescent screen I42 is hinged about a horizontal axis at I43 to a fixed portion of the frame I22 of the film mechanism. This screen is adapted to be rotated about the axis I43 between the full line and dotted line positions indicated in Fig. 4. In the dotted line position, as shown in this figure, the screen is entirely out of the path of the cathode ray or beam, which therefore impinges on the film I 30 and is photographically recorded thereon. When the screen I42 occupies the position indicated in full lines in Figs. 3 and 4, it is horizontally disposed above the exposed portion of the film I30 in the path of the cathode ray beam, and the upper surface thereof may be viewed through a glass window I44 that is provided nearthe outer extremity of the tubular member 41, as indicated in Fig. 3. The window I44 is tightly sealed in member 41. .The outer surface of the fianged sleeve I46 is suitably knurled, as indicated at I41, whereby it may be tightly screwed onto the end of the member 41 to form a perfectly air-tight connection between said member 41 and the window I44. The member 41 is suitably fixed to a side wall of the tapered casing portion 43 in register with an aperture therein by means of soldering or brazing to form an air-tight connection at this point.

It will be seen from an examination of Fig. 3 that the viewing screen I42 may be clearly viewed through the window I44 when said screen is in its operative position as shown. The screen or the mounting plate therefor also serves in this position as a light-proof shutter to protect the film Ill from exposure to light entering the casing through the window I44. It will be understood, of course, that the cap or cover 41a previously mentioned with reference to Figs. 1 and 2 is used to cover the window I44 when the movements of the cathode ray or beam are being recorded on the film Ill instead of being viewed on the screen I 42. This cap or cover prevents the entrance of light into the film chamber through the window I44, which light might affect the sensitized film I30. The provision of such a cap may not be necessary, however, where the window I44 is composed of colored glass which will not admit any light that will aiiect the film Illl, but which will permit the observation of the path of movement of the cathode ray or beam as indicated on the screen I42.

The screen I4! is adapted to be actuated between its operative and inoperative positions by means of a pin I48 extending through an airtight sealing gland I49 in the end wall II! of the film chamber 22, as shown in Fig. 1. The outer extremity of the pin I4! is provided with an operating handle I50, and the inner extremity of this pin is adapted to engage the axial portion I43 of the screen I42 in a suitable operative manner. Thus, the instrument may be adapted either for visual observation or for photographic recording of the movements of the cathode m or beam by simply manipulating the handle III on the outside of the casing. It will be stood that the screen I42 is so moimted that it will remain in either of its two positions when it has been actuated into such position by manipulation of the handle Ill.

The specific apparatus and means by which the electron beam is developed, focused and controlled has been set forth in my parent Patent No. 2,086,548 issued July 13, 1937, and above referred to, and reference may be made to that disclosure for a complete understanding of those portions of the invention which have not been specifically illustrated or described herein in view of the divisional character of this application.

Having now described the invention, what is claimed and desired to be secured by Letters Patent is the following:

A signalling system for indicating successive transpositions of predetermined equal portions of a length of photographic film comprising an hermetically sealed compartment, a frame structure in said compartment, a pair of film spools be tween which the film may be transferred, means for positioning said spools in said frame structure, means externally of the compartment for rotating one of said spools, at least one idler roller positioned in said frame for frlctionally engaging and for guiding said film, an electric signalling device positioned externallyof the compartment means, including a circuit closing de-' 'vice within the compartment for operating said signalling device in accordance with the degree of rotation of said idler roller, said circuit closing device comprising a .circuit closing member mountedon said idler roller and a stationary circuit closing member attached to the wall of the compartment, and a closure for one end of said compartment through which the frame structure may be removed from the compartment to permit changing the film.

ROSCOE HENRY GEORGE. 

